1. Field of the Invention
The present invention relates to a trim and tilt system for use with an outboard motor mounted on a marine craft.
2. Description of Related Art
Conventional trim and tilt systems include a unitary trim and tilt cylinder apparatus, as disclosed in U.S. Pat. No. 5,032,094, issued Jul. 1, 1991 to Sadaji Katogi, hereinafter Katogi. Katogi discloses a trim and tilt system for trimming and tilting an outboard propulsion unit on a boat. The trim and tilt system disclosed by Katogi includes a unitary trim and tilt cylinder apparatus having a tilt cylinder unit and a trim cylinder unit, a stem bracket adapted to be mounted on the transom of the boat, a swivel bracket for supporting the outboard propulsion unit, the swivel bracket being pivotally supported on an upper end of the stem bracket, and a hydraulic pressure circuit for actuating the tilt cylinder unit and the trim cylinder unit. The trim and tilt cylinder apparatus has an upper end pivotally supported on the stern bracket and a lower end pivotally supported on the swivel bracket.
The trim and tilt system disclosed by Katogi has the disadvantage of undue stress being applied to the trim cylinder units at a point of contact of a trim rod of each of the trim cylinder units with the swivel bracket. This excessive stress is in part due to the unitary construction of the trim and tilt cylinder apparatus. As the outboard propulsion unit pivots during the trimming and tilting procedure, the angle of the trim rods of each of the trim cylinder units changes with respect to the swivel bracket. The weight of the propulsion unit is therefore applied to the trim rod through the swivel bracket at various angles throughout the trimming procedure. This leads to a considerable amount of transverse stress being applied between the trim rods and their respective trim cylinders, leading to undue wear and fatigue.
There is therefore a need for a new and improved trim and tilt system that reduces the stress experienced by trim cylinder units during the trimming of a marine propulsion unit.
According to a first aspect of the present invention there is provided a trim and tilt system for use with an outboard propulsion unit on a marine craft having a transom. The trim and tilt system comprises a stem bracket configured to be mounted on the transom of the marine craft and a swivel bracket for supporting the outboard propulsion unit. The swivel bracket is pivotally supported on an upper end of the stem bracket. There is also a tilt cylinder unit that has a lower end supported by the stem bracket and an upper end in pivotal engagement with the swivel bracket. The tilt cylinder unit pivotally supports a pair of trim cylinder units. Each of the trim cylinder units is on an opposite side of the tilt cylinder unit. Each said trim cylinder unit has a longitudinal axis, a lower end in pivotal arrangement with the tilt cylinder unit and a trim rod for engagement with the swivel bracket. The swivel bracket has means for aligning the trim rods therewith, whereby the force exerted by the swivel bracket on the trim cylinder unit is substantially along the longitudinal axis. There is also means for actuating the tilt cylinder unit and the trim cylinder units.
According to a second aspect of the present invention there is provided a method of reducing stress on a trim cylinder unit of a trim and tilt system during trimming and tilting of a marine propulsion unit, the stress resulting from the weight of the marine propulsion unit being transmitted through a swivel bracket to the trim cylinder unit, the method comprising the step of transmitting the weight of the marine propulsion unit substantially along the longitudinal axis of the trim cylinder unit throughout the trimming of the marine propulsion unit.
The present invention will be more readily understood from the following description of preferred embodiments thereof given, by way of example, with reference to the accompanying drawings, in which:
Referring to the drawings and first to
The stern bracket 14 is mounted on the transom 11 of the marine craft 12. The swivel bracket 16 supports the outboard propulsion unit 13, and is pivotally connected with the marine craft 12 at pivotal connection 20 which is located at an upper end of the stem bracket 14. The trim and tilt cylinder apparatus 18 has a lower end supported by the stern bracket 14 and is pivotally connected at an upper end with the swivel bracket 14 at pivotal connection 22, which is best shown in
Referring now to
Each of the trim cylinder units 26 has a trim cylinder 36, a trim rod 38 and a piston 40, which are best shown in
Referring again to
The trim and tilt apparatus 18 further includes a pair of trim receivers 60, each configured with respective ones of the trim cylinder units 26. The trim receivers 60 have a concave surface in this example and are best shown in
In this example, each trim receiver 60 has a first surface 64, a second surface 66 and a receptacle 68 therebetween. The first and second surfaces 64 and 66 are arranged at an inclination with respect to each other with the receptacle 68 forming a vertex of the concave surface. Each of the trim receivers 60 is in operative correspondence with respective ones of the trim rods 38 of the trim cylinder units 26. In an another embodiment, the trim receivers may form the shape of a spherical cone as illustrated in
In this example the trim and tilt cylinder apparatus 18 further includes a pair of pads 74 for each of the trim cylinder units 26 which are best shown in
In operation, when the propulsion unit 13 of the marine craft 12 is to be moved from the lower position to the upper position, the pumping unit 50 actuates the tilt cylinder unit 24 and the trim cylinder units 26 from the position shown in
The trimming phase ends when the trim rods 38 are fully extended out of the trim cylinders 36, as shown in
Considering now the opposite motion, when the trim and tilt apparatus 10 moves the marine propulsion unit 13 between the upper position and the lower position. The pumping unit 50 actuates the tilt cylinder unit 24 to retract the tilt rod 30 into the tilt cylinder 28, thereby causing the swivel bracket 16 to pivot downwardly about the connection 22. Eventually the trim receivers 60 on the swivel bracket 16 come into contact with respective ones of the ball bearings 44 on each of the trim rods 38.
In this example, the ball bearings 44 come into contact with one of either the first surface 64 or the second surface 66 of respective ones of the trim receivers 60, which then guide the trim rods 38 towards the receptacles 68. Normally, the ball bearings 44 of the trim rods 38 initially contact the first surface 64 of respective ones of the trim receivers 60. The trim receivers 60 then pivot so that the force exerted by the trim receivers 60 on the trim rods 38 is along the longitudinal axis of the trim cylinder units 26.
The pumping unit 50 continues to actuate the tilt cylinder unit 24, and also the trim cylinder units 26 so that the trim rods 38 retract into respective ones of the trim cylinders 36, until both the tilt rod 30 and the trim rods 38 are fully retracted in the respective tilt cylinder 28 and trim cylinders 36, as shown in
The trim receivers 60 of the present invention provide the advantage of allowing the trim rods 38 to self align within the trim receivers 60, such that as the propulsion unit 13 is moved between lower and upper positions the force exerted by the propulsion unit 13 through the trim receivers 60 on the trim rods 38 is substantially along the longitudinal axis of the trim cylinders 36 and the trim rods 38. This minimizes the stress put on the trim cylinder units 26 as the propulsion unit 13 is moved between the lower and the upper positions, and also allows the trim cylinder units 26 to handle a greater load.
Another advantage of the present invention is achieved by the pads 74, which limit the pivotal range of the pivotal connections 42. The predetermined range of the pivotal connections 42 ensures that the trim rods 38 will always come into operative engagement with respective ones of either the first surface 64 of the trim receiver 60, the second surface of the trim receiver 66 or directly with the receptacle 68 of the trim reciever.
As will be apparent to those skilled in the art, various modifications may be made within the scope of the appended claims.
Number | Name | Date | Kind |
---|---|---|---|
4545770 | Ferguson | Oct 1985 | A |
4720278 | Taguchi et al. | Jan 1988 | A |
4764134 | Watanabe | Aug 1988 | A |
5032094 | Katogi | Jul 1991 | A |
5597333 | Soda | Jan 1997 | A |
6071157 | Yoshino et al. | Jun 2000 | A |
6824435 | Divisi | Nov 2004 | B2 |
6837761 | Saito | Jan 2005 | B2 |
Number | Date | Country | |
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20080132128 A1 | Jun 2008 | US |